The devices I am designing are all slave devices
you suggest there is a master on the bus. If it's true then there asynchronous access to the bus is not required as the master in such scheme is the only device which can initiate communication and protocol should be designed in a way that master knows when it can transmit (e.g. by using timeout for reply and slaves only responding to a request).
You should examine if you need asynchronous access to the bus or not.
Not requiring asynchronous access to the bus simplyfies things a lot as you can rely on standard communication protocols like modbus RTU. You can find at least couple different implementation examples for AVRs (Arduino libraries for example).
- using modbus to achieve inter-slaves communication is complicated a bit as by design such communication must be coordintated by the master.
requiring asynchronous access (any device can initiate communication) is much harder to do right but there are solutions. Unfortunatelly I haven't found any open source though.
- There is a CAN predecessor for rs-485 bus which is an industrial implementation of the asynchronous access concept: J1708. You could start from here if you think of async comm. bus.
Trivial approach would be to check the serial input buffer, wait a given timeout (the longer the lower priority the device has), check again. If it's empty transmit and wait for confirmation. If transmission is unsuccessful wait (again the longer the lower priority given device has) and try to retransmit.
It is not as easy as it may sound. Professional approach is to read back what you are sending and detect conflict when you are transmitting (to avoid using timeouts) or even better - design the bus so such collision has no effect on higher priority transmitting device - this is how CAN works.
Other amateur approache I've seen is to use dedicated line the transmitting device pulls down and others probe but still a race condition exists when the bus is long (additinal timeouts and confirmations needed).
Designing a token protocol is also an option (but complicated and still needs coordination). You may find useful this blog post - especially comments showing how many problems there are to solve.
If you decide the asynchronous access is a must I would suggest using CAN. It will save you a lot of work and given almost no open source implementation of an async communication for RS-485 exists it may suggest subject is difficult or not needed the effort (there is CAN).